KR20000013256A - Three sectors softer hand off processing method in channel element and apparatus - Google Patents

Abstract

PURPOSE: Three sectors softer hand off processing method in channel element and apparatus is to lower a cutting rate of call in an area where a radio wave between three sectors is similar. CONSTITUTION: Three sectors softer hand off processing apparatus in channel element include a order processing part(100) which receives the softer hand off order and processes the order, a softer hand off state processing part(110), a call control part(120), and a softer hand off modem deriving part(130). The softer hand off state processing part is to perform a softer hand off procedure of the softer hand off order processing apparatus and control. The call control part is to control the call according to the result processed by the softer hand off state processing apparatus. The softer hand off modem part is to control the modem for the softer hand off establishment in the course of the softer hand off procedure.

Description

Method and apparatus for processing three sector softer handoff in channel element

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for processing three sector softer hand-off in a channel element, and more particularly, to a method and apparatus for lowering call break rate in areas where propagation strength between three sectors is similar.

1 is a flowchart of a softer handoff process according to a conventional method. Referring to the drawings, a conventional softener handoff processing method will be described. As shown in FIG. 1, when a two sector softer handoff is in progress (S200), a softer swap handoff request comes. In response to the request, the base station adds or drops a sector configured by the base station controller (S210). Then, the base station processes the swap sector softener handoff (S220).

As described above, in the conventional code division multiple access (CDMA) scheme, only a softer handoff between two sectors is possible at the same time in a channel element of a three sector cell. However, where the propagation strength between three sectors is similar, the channel element of the base station uses a method called softer swap handoff because only two softer handoffs are possible at the same time. As is well known to those skilled in the art, soft swap swapoff is one sector of two sectors in which two sectors of the signal strength are selected by selecting two sectors having a large signal strength from three sectors, and the signal sizes of the remaining sectors are different. If it is larger, it is a method of dropping a sector having a smaller signal size and adding a sector of a larger signal.

However, in this method, soft swap swapoff occurs very frequently where propagation sizes of three sectors are similar, and as a result, the call is frequently disconnected. This is because the channel element and the terminal have to temporarily hold only one sector during the soft swap handoff. If the soft swap swap is too frequent, link diversity due to the soft hand off may occur. This is because the probability of truncation of the arc is increased by disappearing.

Accordingly, an object of the present invention is to provide a method and apparatus for processing three-sector softener handoff in a channel element having a low call break rate in a region where propagation strength between three sectors is similar. do.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

1 is a flowchart of a softer handoff process according to a conventional method.

2 is a configuration diagram of a softener handoff processing apparatus according to the present invention.

3 is a flowchart of a softener handoff processing method according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: softer handoff command processing unit

110: softer handoff state processing unit

120: call control

130: softer handoff modem driver

In order to achieve the above object, a preferred embodiment of the three-sector softener handoff processing apparatus in the channel element according to the present invention is a system for providing a mobile communication service, the softener handoff command from a base station controller. And a softener handoff command processor for processing the command and a softener handoff state processor for performing and controlling a softener handoff procedure of the softener handoff command processor. And a call control unit for controlling the call according to the result of the processing, and a softener handoff modem driver for controlling the modem for setting the softer handoff in the soft handoff process.

In an embodiment of the present invention, the softer handoff command processing unit may receive a command for performing softer handoff from a base station controller, and the softener handoff is associated with the softener handoff when the channel element is capable of performing softener handoff. It is desirable to inform other devices of the channel element and to give a command, to send and receive messages with the base station controller and to process commands related to the softener handoff until the softener handoff is completed. Preferably, the state processing unit performs an operation of performing and controlling a softer handoff procedure according to the state of the softer handoff process, and the softer handoff modem driver is configured to simultaneously transmit data in three sectors to a modulator. To send the demodulator to the demodulator from three simultaneous sectors. It is preferable to perform an operation to receive and process a call.

A preferred embodiment of the three sector softer handoff processing method in a channel element according to the present invention is a system for providing a mobile communication service, comprising: a two sector softer handoff operation step, and a two sector softer handoff operation step Requesting a sector addition step, adding another sector configured by the base station controller by the sector addition request, performing a three sector softer handoff after the sector adding step, a sector in performing the three sector softer handoff. After the drop request step and the sector configured by the sector drop request, the sector configured by the base station controller is dropped, it is checked whether the resources of the allocated channel elements are normally released. And returning to the sector softer handoff operation step.

In the present embodiment, the sector adding request step reports to the base station controller that all softener handoff processing at the channel element has been normally performed, if the sector to be added is in use at the channel element, and internally, the softener handoff is performed. If the sector to be added is not in use in the channel element and the sector to be added is not used, it is preferable to proceed to the sector imposing step. After receiving the soft handoff processing report and receiving a response from the base station controller, Preferably, the method further includes returning to waiting for the request.

Also, in the present embodiment, the sector adding step may include requesting a base station call control unit for resource allocation for forward link traffic in a sector to which a softer handoff state processing unit is to be added, and operating a timer after the timer operation. The call control unit of the channel element is allocated from the call control unit of the base station resources for forward link traffic in the sector to be added to control the modem driver for setting the softener handoff, if the modem unit normally completes the softener handoff And informing the base station controller that the softer handoff procedure at the channel element is completed, and returning to waiting for a request for softener handoff after receiving a response to the completion of the softener handoff procedure. Preferably, the modem driver control step, If the resource allocation for the forward link traffic is not received within a predetermined time, it may be desirable to further include the step of stopping the procedure for setting up the softener handoff and returning to waiting for the request for the softener handoff.

On the other hand, features and functions of what is well known in order not to obscure the present invention in detail, and the same term is used in English initials or Korean interpretation for convenience of explanation and understanding.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 2 is a block diagram of a softener handoff processing apparatus according to the present invention.

First, when the softener handoff command processor 100 receives a command from the base station controller to perform the softener handoff, another apparatus of the channel element related to the softener handoff when the softener handoff is in a state capable of performing the softener handoff. It's a device that notifies and commands them. It is also a device that exchanges messages with the base station controller until the softer handoff process is completed, processes commands related to softer handoff, and instructs the related devices.

The softer handoff state processor 110 is a device that manages the softener handoff state of the channel element from the start of the softer handoff to the setting and drives the state machine. The device performs and controls the softener handoff procedure according to the event of each course of softener handoff.

The softer handoff modem driver 130 controls the modem to set the softener handoff during the softer handoff process. This device controls a modulator to send data to the terminal simultaneously in three sectors, and a demodulator to receive and process a signal from the terminal from three sectors at the same time.

3 is a flow chart of a softener handoff processing method according to the present invention, with reference to this will be described the operation of the present invention.

When the softener handoff command processing unit 100 according to the present invention receives a softener handoff command from the base station controller, the channel element must first check whether the softener handoff can be performed. If the softener handoff setup process is currently in progress, the channel element informs the base station controller of this fact and rejects the softener handoff command. If it is possible to perform softer handoff, check the state of the added sector instructed to softener handoff.

If the indicated sector to be added is already performing softer handoff at the channel element, the state of softer handoff is set to the 'SFTR_HO_IN_PROGRESS' state indicating that it is already in progress. Otherwise (S300), the state of the softener handoff is set to 'SFTR_HO_DETECT' state in order to process the softener handoff for the indicated additional sector. And informs the base station controller that it can accept the softer handoff processing command. When receiving the release command of the sector in the soft handoff process from the base station controller, the related device is performed.

The softer handoff state processing unit 110 starts a given operation according to an event occurring in each of the following states.

The 'SFTR_HO_IDLE' state (S300) indicates that the softer handoff setting process is not in progress. In this state, one to three sectors may already be added and operating. This state merely indicates that no processing procedure for setting the softer handoff at the channel element is in progress. Thereafter, the softener handoff command processing unit transitions to the 'SFTR_HO_DETECT' state for starting the softer handoff setting procedure.

The 'SFTR_HO_DETECT' state S310 requests the base station call control unit 120 to allocate resources for forward link traffic in the sector to be added and starts a timer. Then, the state transitions to 'SFTR_HO_RQST_PND' state.

In the 'SFTR_HO_RQST_PND' state (S310), the call control unit of the channel element waits for resources for forward link traffic in a sector to be added from the call control module of the base station. The call control unit of the channel element assigned the resource controls the modem driver to set the softer handoff. After that, the state transitions to 'SFTR_HO_SETUP'. If the allocation is not received within the specified time, it goes to the initial state 'SFTR_HO_IDLE' and stops the soft handoff setting procedure.

'SFTR_HO_SETUP' (S320) state indicates that the modem device has normally completed the procedure for softener handoff, and notifies the base station controller that all procedures for softener handoff at the channel element have been completed, and then 'SFTR_HO_TSB_ACK_WAIT' Transition to state.

The channel element in the 'SFTR_HO_TSB_ACK_WAIT' state (S320) waits for a response to a message sent to the base station controller that the softer handoff is completed. Upon receiving a response from the base station controller, the procedure transitions to the initial state of 'SFTR_HO_IDLE' because all procedures of softener handoff are completed.

The 'SFTR_HO_IN_PROGRESS' state (S320) is used when one sector is participating in the softener handoff by a command of the base station controller, and the softener handoff is performed for the sector from the base station controller. In this case, if the channel element sends a reject message for this command, the base station controller may not know this fact and continue to send a soft handoff command and eventually hang up. Thus, in this case, rather than sending a reject message to the base station controller, it is better to make the base station controller appear to perform normal softer handoff and not to perform softer handoff inside the channel element.

In this state, the sector instructed to softener handoff is in charge of processing when the softener handoff is already participating. The base station controller reports that all the softener handoff processing at the channel element is normal, and does not internally handle the softener handoff. After that, a softener handoff completion message is transmitted to the base station controller, and the state transitions to the state of 'SFTR_HO_PSEUDO_TSB_ACK_WAIT'.

The state of the 'SFTR_HO_PSEUDO_TSB_ACK_WAIT' (S320) transitions to the 'SFTR_HO_IDLE' state, which is an initial state of the softener handoff, upon receiving a response message from the base station controller.

'SFTR_HO_RELEASE' state (S330) checks whether the resource of a channel element allocated for a sector designated as a state when receiving a message to drop a specific sector from the softener handoff state from the base station controller is normally released. Notify the control module of this fact. Thereafter, when all the release procedures are completed successfully, the state transitions to the 'SFTR_HO_IDLE' state.

The softener handoff modem driver 130 drives the parts of the modulator and the demodulator for the softener handoff process. It receives a higher order to perform a three sector softer handoff, writes a Walsh code assigned to each sector to the modulator, and controls the modulator to allow all traffic data to exit through the forward link through the three sectors. The demodulator process receives the signals in three sectors simultaneously and processes the reverse link traffic data.

In the above description, the present invention has been described and limited by way of example with reference to the drawings. However, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit of the present invention. will be.

Therefore, it is to be understood that the invention is not limited to the specific forms referred to in the specification, but rather that the invention is defined by all the modifications, equivalents and equivalents within the spirit and scope of the invention as defined by the appended claims. It should be understood to include substitutes.

The present invention operating as described above has the effect that the channel element can simultaneously send signals of three sectors to the terminal and, conversely, can receive and process the signals of the terminal from three sectors simultaneously.

Claims (9)

In the system for providing a mobile communication service, A softer handoff command processor which receives a softener handoff command from a base station controller and processes the command; A softener handoff state processing unit which performs and controls the softener handoff procedure of the softener handoff command processing apparatus; A call controller for controlling a call in accordance with a result processed by the softener handoff state processing apparatus; And And a softener handoff modem driver for controlling a modem for softener handoff setting in the softener handoff process. The method of claim 1, wherein the softer handoff command processing unit, Receive a command from the base station controller to perform a softer handoff, If the channel element is capable of performing softer handoff, it notifies and commands the other devices of the channel element associated with the softener handoff, exchanges messages with the base station controller until the softener handoff is completed, and softener handoff. 3. A three sector softener handoff processing apparatus in a channel element operative to process instructions associated with an off. The method of claim 1, wherein the softer handoff state processing unit, 3. An apparatus for three sector softener handoff processing in a channel element for performing and controlling a softener handoff procedure in accordance with a state of a softener handoff procedure. The method of claim 1, wherein the softer handoff modem driver, Control the modulator to send data to the terminal simultaneously in three sectors, And a demodulator for receiving a signal from the terminal from three simultaneous sectors and processing the demodulator. In the system for providing a mobile communication service, A two sector softer handoff operation step; A sector adding request step during the two sector softer handoff operation step; Adding another sector configured by a base station controller by the sector addition request; Performing a three sector softer handoff after the sector adding step; Requesting a sector drop during the three sector softer handoff; And After dropping the sector configured by the base station controller according to the sector drop request, it is confirmed whether the resource of the allocated channel element is normally released, informs the base station call controller whether or not to release it, and then goes back to the two sector softer handoff operation step. 3. A method of processing a three sector softer handoff in a channel element, comprising returning. The method of claim 5, wherein the adding sector request step comprises: If the sector to be added is in use in the channel element, it reports to the base station controller that all softer handoff processing in the channel element is normal, and internally does not process softer handoff. If the sector to be added is not in use at the channel element, then goes to the sector imposing step. 7. The three-sector softener hand of claim 6, further comprising returning to waiting for a request for a softener handoff upon receiving a response from a base station controller after reporting the softener handoff process. Off processing method. The method of claim 5, wherein the sector adding step, Requesting a base station call control unit for resource allocation for forward link traffic in the sector to which the softer handoff state processing unit is to be added, and operating a timer; Controlling, by the call control unit of the channel element, after the timer operation, resources are allocated for forward link traffic in a sector to be added by the call control unit of the base station to control the modem driver for setting the softener handoff; If the modem unit normally completes the softer handoff, informing the base station controller that the softer handoff procedure at the channel element is completed; And returning awaiting a request for a softener handoff after receiving a response to completion of the softener handoff procedure. The method of claim 8, wherein the controlling of the modem driver comprises: If the resource allocation for the forward link traffic is not received within a predetermined time period, the third sector in the channel element further comprising the step of stopping the procedure for setting up the softener handoff and returning to waiting for the request for the softener handoff. How to Handle Softener Handoff.